Book/Report | FZJ-2018-00160 |
1974
Kernforschungsanlage Jülich GmbH, Zentralbiliothek, Verlag
Jülich
Please use a persistent id in citations: http://hdl.handle.net/2128/16391
Report No.: Juel-1087-02-RX
Abstract: Layout of table III: 1. Name of the nuclide 2. Energy in keV 3. Relative intensity 4. Associated energies of the nuclide ordered according to decreasing intensities. The line given under 2. is marked by an arrow. For reason of limited space only the 14 most intensive lines are listed (refer 6.). 5. Half-line 6. Number of lines given in table I 7. Decay product Radioactive decay products are marked by an asterisk. 8. Normalizing factor for converting relative to absolute intensity. If the absolute intensity is unknown, asterisks are printed. 9. Satured activity for production by thermal neutrons. 10. Fission product yield for the entire chain. Layout of table IV : Column 1 Name of the nuclide 2 Half-line in sec 3 Saturated activity f or the (n,$\gamma$)-reaction with thermal neutrons 4 Saturated activity f or the (n,$\gamma$)-reaction with epithermal neutrons 5 Saturated activity f or the (n,$\alpha$)-reaction with fast neutrons 6 Saturated activity f or the (n,p)-reaction with fast neutrons 7 Saturated activity f or the (n ,n') -reaction with fast neutrons 8 Saturated activity f or the (n,2n)-reaction with fast neutrons For the neutron fluxes a number value of 10$^{13}$ was chosen. The flux is related to a velocity of 2200 m sec$^{-1}$ for thermal neutrons, to the lethargy intervall for epithermal neutrons and to range of energies exeeding 1 MeV for fast neutrons; in the latter case the energy distribution is taken from the fission spectrum.
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